Thessa M. F. Vinkenvleugel scite author profile

SummaryCell division proteins FtsZ (FtsA, ZipA, ZapA), FtsE/X, FtsK, FtsQ, FtsL/B, FtsW, PBP3, FtsN and AmiC localize at mid cell in Escherichia coli in an interdependent order as listed. To investigate whether this reflects a time dependent maturation of the divisome, the average cell age at which FtsZ, FtsQ, FtsW, PBP3 and FtsN arrive at their destination was determined by immunoand GFP-fluorescence microscopy of steady state grown cells at a variety of growth rates. Consistently, a time delay of 14-21 min, depending on the growth rate, between Z-ring formation and the mid cell recruitment of proteins down stream of FtsK was found. We suggest a two-step model for bacterial division in which the Z-ring is involved in the switch from cylindrical to polar peptidoglycan synthesis, whereas the much later localizing cell division proteins are responsible for the modification of the envelope shape into that of two new poles.

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Structural and mutational analysis of the cell division protein FtsQ

Ent¹,

Vinkenvleugel

Ind³

et al. 2008

Molecular Microbiology

101

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SummaryBacterial cytokinesis requires the divisome, a complex of proteins that co-ordinates the invagination of the cytoplasmic membrane, inward growth of the peptidoglycan layer and the outer membrane. Assembly of the cell division proteins is tightly regulated and the order of appearance at the future division site is well organized. FtsQ is a highly conserved component of the divisome among bacteria that have a cell wall, where it plays a central role in the assembly of early and late cell division proteins. Here, we describe the crystal structure of the major, periplasmic domain of FtsQ from Escherichia coli and Yersinia enterocolitica. The crystal structure reveals two domains; the a-domain has a striking similarity to polypeptide transport-associated (POTRA) domains and the C-terminal b-domain forms an extended b-sheet overlaid by two, slightly curved a-helices. Mutagenesis experiments demonstrate that two functions of FtsQ, localization and recruitment, occur in two separate domains. Proteins that localize FtsQ need the second b-strand of the POTRA domain and those that are recruited by FtsQ, like FtsL/FtsB, require the surface formed by the tip of the last a-helix and the two C-terminal b-strands. Both domains act together to accomplish the role of FtsQ in linking upstream and downstream cell division proteins within the divisome.

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Carbon source-dependent transcriptional regulation of the QCR8 gene in Kluyveromyces lactis .

et al. 2001

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The QCR8 gene of the yeast K1uyveromyces lactis is transcriptionally regulated by the carbon source in the growth medium. Deletion analysis of the KlQCR8 promoter shows that an element located between -144 bp and -113 bp specifically controls induction of QCR8 gene expression on non-fermentable carbon sources. Specific and differential protein-binding to the activating sequence was observed with extracts from glucose- and ethanol/glycerol-grown cells. Induction of the reporter gene and protein-binding was dependent on the presence of a functional KlCAT8 gene, suggesting that, in K. lactis, K1Cat8p acts in the transcriptional regulation of respiratory function. The activating element contains no other known regulatory sites but two elements required for RNA holoenzyme functioning, raising the intriguing possibility of carbon source-dependent regulation by a subunit of the RNA polymerase holoenzyme in K. lactis.

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Crystal structure of bacterial cell division protein FtsQ from E.coli

Ent¹,

Vinkenvleugel²,

Ind³

et al. 2008

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